JPH10276311A - Data communication method and data communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the data communication method where transmission data from a center side are not lost even when a remaining storage capacity of a storage device of the user is decreased. SOLUTION: In the case of sending data from a sender side to a receiver side, whether or not the receiver side reserves a required area capacity based on a transmission data size and the remaining storage capacity of the receiver side in the step S3, and in the case that the transmitter side discriminates it that the receiver side cannot reserve the required area, the steps S7, S8, S9 are executed and quantity of data sent from the transmitter side to the receiver side is adjusted. For this purpose, even when the remaining storage capacity of the storage device of the user is small, the transmission data from the center side are not lost.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data communication method of a next-generation information distribution service used for a receiving terminal installed in each home.

[0002]

2. Description of the Related Art As personal computers have become widespread in homes, they have been connected to various personal computer communication networks via telephone lines so that users can obtain necessary information while staying at home. Has become.

[0003] Specifically, in order for a user to obtain information, the user operates the personal computer to access the personal computer communication network, and further operates to move to a desired location of the information to obtain the information.

As a means for obtaining multimedia information with richer expressiveness, there is a method of obtaining information from a homepage on the Internet. Specifically, the user operates the Internet provider to access the Internet provider, and inputs an address (URL) of desired information on a homepage browser to obtain the information.

[0005]

In such data communication between the home and the center, it is necessary for the user to actively access the personal computer communication network or provider and use the database and homepage at his will. It is the present situation.

Accordingly, a next-generation information service that distributes information to users by accessing a terminal device such as a personal computer installed in each home from a center side (transmission side) via a telephone line will be developed. is expected.

This system, in which the center takes the initiative and distributes information without user operation, is based on the desire of the center to distribute information to more users,
Both the user's desire to obtain information without performing the access operation can be satisfied.

[0008] However, the remaining storage capacity of each user's storage device varies, and when the remaining storage capacity of the user's storage device is reduced, a part of the transmission data from the center side is lost. There is a problem that data cannot be stored in the storage device on the side and is lost.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a data communication method in which transmission data from a center is not lost even when the remaining storage capacity of a user's storage device is reduced.

[0010]

According to the data communication method of the present invention, when data is transmitted from a transmission side to a reception side, a necessary area is secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. Check if it is possible, and if it is determined that the required area cannot be secured on the receiving side, adjust the data to be transmitted from the transmitting side to the receiving side, or according to the status of access to the storage device on the receiving side. And processing the contents already stored in the storage device on the receiving side.

According to the present invention, it is possible to realize data communication in which transmission data from the center is not lost even if the remaining storage capacity of the storage device of the user is small.

[0012]

According to the data communication method of the present invention, when data is transmitted from a transmission side to a reception side, a necessary area is secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. Check if it is possible, and if it is determined that the required area can be secured on the receiving side, the transmitting side transmits the desired transmission data to the receiving side, and the receiving side that received this received the data from the transmitting side When the data is stored and the receiving side determines that the necessary area cannot be secured,
The transmission side transmits only a part of the target transmission data to the reception side, and the reception side receiving the transmission data stores the data received from the transmission side.

In the data communication method according to the present invention, when data is transmitted from the transmission side to the reception side, it is determined whether a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. After confirming and determining that the necessary area can be secured on the receiving side, the transmitting side transmits the desired transmission data to the receiving side, and the receiving side receiving this stores the data received from the transmitting side. When the receiving side determines that the necessary area cannot be secured, transmission of the target transmission data from the transmitting side to the receiving side is stopped.

According to a third aspect of the present invention, when data is transmitted from a transmission side to a reception side, it is determined whether or not a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. After confirming and determining that the necessary area can be secured on the receiving side, the transmitting side transmits the desired transmission data to the receiving side, and the receiving side receiving this stores the data received from the transmitting side. If it is determined that the necessary area cannot be secured on the receiving side, a part or all of the target transmission data is transmitted from the transmitting side to the receiving side.
The data is transmitted after being changed to alternative data having a small data size, and the receiving side receiving the data stores the data received from the transmitting side.

In the data communication method according to the present invention, when data is transmitted from the transmission side to the reception side, it is determined whether or not a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. After confirming and determining that the necessary area can be secured on the receiving side, the transmitting side transmits the desired transmission data to the receiving side, and the receiving side receiving this stores the data received from the transmitting side. If the receiving side determines that the necessary area cannot be secured, the transmitting side compresses and transmits at least part of the target transmission data to the receiving side, and the receiving side receives the data from the transmitting side. The compressed data is stored in the compressed state.

In the data communication method according to the fifth aspect, when data is transmitted from the transmitting side to the receiving side in a compressed state, a necessary area is secured on the receiving side according to the size of the transmitting data and the remaining storage capacity of the receiving side. Check if it is possible, and if it is determined that the required area can be secured on the receiving side, the transmitting side transmits the desired transmission data to the receiving side, and the receiving side that received this received the data from the transmitting side If the data is stored and the receiving side determines that the necessary area cannot be secured, the transmitting side recompresses the target compressed transmission data to the receiving side and transmits it. Is stored in the recompressed state.

According to the data communication method of the present invention, when data is transmitted from the transmission side to the reception side, the data size is transmitted from the transmission side to the reception side prior to transmission of the target transmission data, and the reception side receives the data size. Check if the required area can be secured according to the remaining storage capacity on the receiving side, and if the receiving side determines that the required area can be secured, all of the target transmission data transmitted from the transmitting side If the receiving side determines that the necessary area cannot be secured,
It is characterized in that only a part of the target transmission data transmitted from the transmission side is stored.

In the data communication method according to the present invention, when data is transmitted from the transmission side to the reception side, the transmission side transmits target transmission data to the reception side, and the reception side receives the transmission data. The data size of the data is read from the header of the transmission data, and the reception side checks whether or not an area necessary for storage can be secured.If the reception side determines that the necessary area can be secured, the transmission side transmits the data. If the receiving side determines that it is not possible to secure a necessary area, it stores only a part of the target transmission data transmitted from the transmission side. And

In the data communication method according to the present invention, when data is transmitted from the transmission side to the storage device on the reception side, the reception side counts the frequency of the user accessing the data written in the storage device, and Check whether the required area can be secured on the receiving side according to the size and the remaining storage capacity on the receiving side, and if the receiving side determines that the required area can be secured, transmit data sent from the transmitting side. Is stored in the storage device on the receiving side, and if it is determined that the necessary area cannot be secured on the receiving side, data with low access frequency is erased or compressed from the storage device to secure the area, and the transmission is performed. The transmission data received from the side is stored in the storage device.

In the data communication method according to the ninth aspect, when data is transmitted from the transmission side to the first storage device on the reception side, the frequency at which the user accesses the data written in the first storage device on the reception side. Is counted, it is confirmed whether or not a necessary area can be secured on the receiving side according to the transmission data size and the remaining storage capacity of the first storage device. If it is determined that the necessary area can be secured on the receiving side, The transmission data transmitted from the transmission side is stored in the first storage device on the reception side, and if it is determined that the necessary area cannot be secured on the reception side, the data having a low access frequency is transferred from the first storage device. It is characterized by moving to a second storage device different from the first storage device to secure an area, and storing transmission data received from the transmission side in the first storage device.

According to a tenth aspect of the present invention, when data is transmitted from the transmission side to the storage device on the reception side,
The receiving side counts the frequency of user access to the data written to the storage device, and checks whether the necessary area can be secured on the receiving side according to the transmission data size and the remaining storage capacity of the storage device. However, if it is determined that the required area can be secured on the receiving side, the transmission data transmitted from the transmitting side is stored in the storage device on the receiving side,
If it is determined that the necessary area cannot be secured on the receiving side, the data with low access frequency is printed out and erased from the storage device to secure the area, and the transmission data received from the transmitting side is stored in the storage. It is characterized in that it is stored in a device.

A data communication system according to claim 11 is
A data communication system for realizing the data communication method according to any one of claims 1 to 10, wherein the equipment on the receiving side is a facsimile machine.

A data communication system according to claim 12 is
A data communication system for realizing the data communication method according to any one of claims 1 to 10, wherein the equipment on the receiving side is a television receiver or a monitor device.

A data communication system according to claim 13 is
11. A data communication system for realizing the data communication method according to any one of claims 1 to 10, wherein the receiving-side equipment is used by being connected to a television receiver or a monitor device or a facsimile device. It is characterized by being.

Hereinafter, the data communication method of the present invention will be described with reference to specific embodiments shown in FIGS. (Embodiment 1) FIGS. 1 to 4 show (Embodiment 1).

As shown in FIG. 1, a transmitting side T and a receiving side R are connected via a public telephone line L. The receiving side R of this embodiment is an accessory device 2 connected to the television receiver 1, and as shown in FIG. 2, a microcomputer 3R, data storage means 4, data transmission / reception means 5, and video output to the outside. And a RAM 7 serving as a work area. The microcomputer 3R includes functional blocks such as a reception data analysis unit 8, a data read / write unit 9, and a transmission data generation unit 10.

The transmitting side T includes a microcomputer 3T, data storage means 11, data transmission / reception means 12, and the like. The microcomputer 3T includes a data read / write unit 13 and a transmission data size counting unit 14
And transmission data generation means 15, reception data analysis means 16, transmission interruption means 17, and the like.

The desired transmission data that the transmission side T wants to transmit to the reception side R is written in the data storage unit 11 via the data read / write unit 13 of the microcomputer 3T.

Here, the transmission data for the purpose is multimedia data having at least one of moving picture data, still picture data, sound data, and text data, and its data format is, for example, moving picture data. If it is composed of data, sound data, and text data, as shown in FIG. 3A, it is composed of a header, moving image data, sound data, and text data. As shown in Table 1 below, the header includes a pointer P1 indicating the start position of the moving image data and the data size of the moving image data, a pointer P2 indicating the start position of the sound data, and a data size of the sound data. , A pointer P3 indicating the start position of the text data and the data size of the text data are recorded.

[0030]

[Table 1]

FIG. 4 is a flow chart of the microcomputers 3R and 3T showing the communication procedure between the transmitting side and the receiving side when writing the transmission data stored in the data storing means 11 to the data storing means 4 of the receiving side R. It was done.

Specifically, in a negotiation for determining communication conditions such as a communication speed performed before transmission data is actually transmitted from the transmission side T to the reception side R,
In step S1, the transmission side T requests the reception side R to transmit the size of the remaining storage area of the data storage unit 4 via the data transmission / reception unit 12.

In step S2, the receiving side R, which has received the request from the transmitting side T in step S1, determines the size of the free area of the data storage unit 4 (specifically, the HDD device) by the transmission data generation unit 10. Reply to the transmitting side T via.

In step S3, the transmitting side T that has received the reply from the receiving side R in step S2 determines the data size of the multimedia data to be transmitted in step S2.
The received data analyzing means 16 compares the size of the empty area received in the response of the above with the received data analyzing means 16 to check whether the transmission data can be written in the data storage means 4 of the receiving side R.

If the received data analyzing means 16 of the transmitting side T determines YES (can be written) in step S3, the target transmission data written in the data storage means 11 is read out via the data read / write means 13. In step S4, data transmission is started, and as shown in FIG. 4 (b), the data is transmitted as it is via the transmission data generating means 15 as shown in FIG. 4 (b). One operation is completed by executing the end sequence of S6. In this case, the transmission data size counting means 14 and the transmission interruption means 17 do not operate.

The transmission data transmitted to the public telephone line L between steps S5 and S6 is written in the data storage means 4 of the receiving side R with the same data size.

If the received data analysis means 16 of the transmission side T determines NO (cannot write) in step S3, the transmission data size counting means 14 and the transmission interruption means 17 operate as follows. Specifically, step S7
In step S2, the transmission content is determined so that a part of the transmission data is not transmitted so that the size of the transmission data is smaller than the size of the free area received in step S2. For example, if moving image data is not to be transmitted, the transmission is started in step S8. When the transmission data generation unit 15 uses the data transmission via the data transmission / reception unit 12, the transmission data size counting unit 14
However, during the period from the pointer P1 to the data size of the moving image data, the transmission suspending means 17 operates and the data transmitting / receiving means 12 transmits only the sound data and the text data excluding the moving image data to the receiving side R as shown in FIG. The data transmission / reception means 5 receives and writes the data in the empty area of the data storage means 4, completes the transmission in step S9, and executes the end sequence in step S6 to complete one operation. With the selection of the transmission contents, the contents of the header written in the data storage means 4 are also updated to contents suitable for the actual situation.

In the case where the multimedia data is composed only of a moving image as shown in FIG. 22, if a receiving area larger than the data size to be transmitted cannot be secured, the moving image data is transmitted from the beginning and received. The side transmits the moving image data by the data size that can be secured as the data receiving area, suspends the transmission of the remaining moving image data, executes an end sequence, and completes the operation.

As described above, when the free area of the data storage means 4 of the receiving side R is smaller than the target transmitting data, the transmitting side T distributes and receives only a part of the target transmitting data. Data can be prevented from being lost on the side R. Specifically, when the transmission data is transmitted in spite of the small free space, an overflow occurs in the storage capacity of the data storage unit 4 of the reception side R during the transmission of the moving image data or the transmission of the sound data. Therefore, since the text data cannot be left in the data storage means 4 of the receiving side R, it may not be possible to understand what the transmission data written in the data storing means 4 of the receiving side R at that time. In such a case, by distributing the combination of the sound data and the text data excluding the moving image data or the combination of the moving image data and the text data excluding the sound data to the reception side R as described above, it is possible to reduce unnecessary communication. It is possible to eliminate waste of storage capacity of the data storage means 4 on the receiving side R.

Further, even when transmission using a combination of different types of data is not possible, by transmitting a part of the data incompletely without affecting other storage data of the data storage means 4 as much as possible, Can be distributed.

(Embodiment 2) FIGS. 5 and 6 show (Embodiment 2). Components having the same functions as those of the first embodiment will be described with the same reference numerals.

In (Embodiment 1), when there is no more free space in the data storage means 4 of the receiving side R than the transmission data, only a part of the transmission data is transmitted. In 2), the transmission side T stops transmission to the reception side R when the free area of the data storage unit 4 of the reception side R becomes insufficient compared with the transmission data.

As shown in FIG. 5, a transmission suspending means 18 is provided in place of the transmission data size counting means 14 and the transmission suspending means 17 shown in FIG. 1 (Embodiment 1). The configuration of the microcomputers 3R and 3T is shown in FIG.
As shown in (Embodiment 1), steps S1,
If S2 and S3 are executed and NO is determined in step S3 (cannot be written), then the end sequence of step S6 is executed to not send all of the transmission data.

(Embodiment 3) FIGS. 7 to 9 show (Embodiment 3). Components having the same functions as those of the first embodiment will be described with the same reference numerals.

In the first embodiment, only a part of the transmission data is transmitted when the free space of the data storage means 4 on the receiving side R becomes smaller than that of the transmission data. In 3), when the data storage unit 4 on the receiving side R runs out of free space compared to the transmission data,
The transmission side T is configured to change part or all of the transmission data to the reception side R to substitute data having a small data size and transmit the data.

As shown in FIG. 7, transmission data changing means 1
9 is provided in place of the transmission data size counting means 14 and the transmission interruption means 17 shown in FIG. 1 (Embodiment 1). As shown in FIG. 8A, the format of the target transmission data is composed of moving image data, first and second still image data, sound data, and text data.

Each of the first and second still picture data is prepared in advance as a substitute for the moving picture data. The first still picture data has a smaller data size than the moving picture data, and the second still picture data Is smaller in data size than the first still image data.

The relationship between the moving image data and the first and second still image data and the data size thereof are registered in advance in an alternative list of the moving image data. Regarding the configuration of the microcomputers 3R and 3T, as shown in FIG. 9, steps S1, S2, and S3 are executed in the same manner as in the first embodiment, and when it is determined NO (cannot write) in step S3, Step S7-A is executed via step S7.

In step S7-A, step S7-B is executed with reference to the substitute list of the moving image data. In step S7-B, it is checked whether the substitute data list has substitute data of a data size that can be transmitted.

If it is determined in step S7-B that the answer is NO (there is no substitute data), then the end sequence of step S6 is executed to not send all of the transmission data. If YES (there is alternative data) is determined in step S7-B, then the first still image data is incorporated in place of the moving image data in step S7-C, and the format shown in FIG. Is used as substitute data for the target transmission data, or the second still image data is incorporated in place of the moving image data, and data in the format shown in FIG. 8C is used as the substitute data for the target transmission data. And start transmission. When the completion of data transmission is detected in step S9, the end sequence of step S6 is executed to complete one operation.

The same effect can be expected with this configuration. (Embodiment 4) FIGS. 10 and 11 show (Embodiment 4). Components having the same functions as those of the first embodiment will be described with the same reference numerals.

In the first embodiment, only a part of the transmission data is transmitted when the free space of the data storage means 4 on the receiving side R becomes smaller than that of the transmission data. In 4), when the free space of the data storage means 4 on the receiving side R becomes insufficient compared with the transmission data,
The transmitting side T is configured to compress and transmit the transmission data to the receiving side R.

As shown in FIG. 10, a transmission data compression means 20 is provided in place of the transmission data size counting means 14 and the transmission interruption means 17 shown in FIG. 1 (Embodiment 1).

Regarding the configuration of the microcomputers 3R and 3T, as shown in FIG. 11, steps S1, S2 and S3 are executed in the same manner as in the first embodiment, and
If it is determined NO (cannot write) in step S7, step S7-D is executed via step S7.

In step S7-D, the target transmission data is compressed by a predetermined compression method. In step S7-E,
A comparison is made between the data size after compression in step S7-D and the size of the empty area read in step S2 to check whether the compressed data fits within the transmittable data size.

If it is determined NO (not fit) in step S7-E, the end sequence of step S6 is executed to not send all of the transmission data. Step S7-E
If YES is determined in step S7, the process proceeds to step S7.
In step S4, transmission of the compressed data is started in step S4.
In step S5, data transmission is completed, and the end sequence of step S6 is executed to complete one operation.

If the received data analyzing means 16 of the transmitting side T determines YES (can be written) in step S3, the target transmission data written in the data storage means 11 is read out, and steps S4 and S5 are executed. .

The data compressed and recorded in the data storage means 4 of the receiving side R is decompressed and used when necessary. Even with such a configuration, the same effect can be expected.

In this embodiment, the case where all of the target transmission data is compressed and transmitted in step S7-D, and the case where a part of the target transmission data is compressed and transmitted in step S7-D, Can be performed. In any case, the compression method and the period of the compressed data may be determined in advance between the transmission side T and the reception side R, or may be described in the header of the data and delivered. Can also.

In step S7-D, the transmission data before compression is compressed. However, when the target transmission data is compressed and written in the data storage means 11 of the transmission side T, in step S7-D, the post-compression is performed. Is recompressed and transmitted.

In (Embodiment 1) to (Embodiment 4), the transmitting side T requests the receiving side R from the transmitting side T to read the size of the free area of the data storage means 4 of the receiving side R. The transmitting side T has confirmed whether it can secure an area necessary for writing data to be transmitted from now on, but the transmitting side T transmits the data size of the target transmission data to the receiving side R, and its own free area is transmitted. Size and sender T
The microcomputer 3R of the receiving side R compares the data size received from the receiving side R, and the receiving side R notifies the transmitting side T of the determination result. Specifically, in the case of (Embodiment 1), The same effect can be expected even if the microcomputer 3T is configured to execute the steps S3 and subsequent steps shown in FIG.

(Embodiment 5) FIGS. 12 and 13 show (Embodiment 5). As shown in FIG. 12, the transmitting side T and the receiving side R are connected via a public telephone line L. The receiving side R of this embodiment is an attachment device 2 connected to the television receiver 1 as in (Embodiment 1).

The receiving side R comprises a microcomputer 3R, data storage means 4, data transmission / reception means 5, and the like. The microcomputer 3R includes functional blocks such as a reception data analysis unit 8, a data read / write unit 9, a transmission data generation unit 10, and a reception suspension unit 21.

The transmitting side T comprises a microcomputer 3T, data storage means 11, data transmission / reception means 12, and the like. The microcomputer 3T includes functional blocks such as a reception data analysis unit 16, a data read / write unit 13, and a transmission data generation unit 15.

The desired transmission data that the transmitting side T wants to transmit to the receiving side R has been written into the data storage means 11 via the data reading and writing means 13 of the microcomputer 3T.

Here, the target transmission data is multimedia data having moving picture data, sound data and text data, and its data format is a header, moving picture data and sound data as shown in FIG. It consists of data and text data. The header includes a pointer P1 indicating the start position of the moving image data, the data size of the moving image data, a pointer P2 indicating the start position of the sound data, a data size of the sound data, and a pointer P3 indicating the start position of the text data. And the data size of the text data are recorded.

FIG. 13 is a flowchart of the microcomputers 3R and 3T showing the communication procedure between the transmission side and the reception side when writing the transmission data stored in the data storage means 11 to the data storage means 4 of the reception side R. It was done.

Specifically, in the negotiation before the transmission data is actually transmitted from the transmission side T to the reception side R, the transmission side T transmits to the reception side R via the data transmission / reception means 12 in step S11. The data size of the transmission data is transmitted. Specifically, only the contents of the header are transmitted.

In step S12, the receiving side R, which has received the header from the transmitting side T in step S11, compares the received data size with the size of the free area of its own data storage means 4, and transmits the transmitted data. It is checked whether data can be written to the data storage means 4 of the receiving side R.

If it is determined YES (writable) in step S12, the transmission side T is transmitted via the transmission data generation means 10 and the data transmission / reception means 5 in step S13.
To the server that the preparation for data reception is completed.

The microcomputer 3T, which has detected the completion of preparation for receiving data from the receiving side R, reads out the target transmission data written in the data storage means 11 via the data read / write means 13 and proceeds to step S14.
To start the data transmission, transmit the data of FIG. 3A as it is as shown in FIG. 3B via the transmission data generating means 15, complete the data transmission in the step S15, and end the step S16 Execute the sequence to complete one operation. In this case, the data is written in the data storage means 4 of the receiving side R with the same data size, and the reception suspending means 21 does not operate.

If the received data analyzing means 8 of the receiving side R determines NO (cannot write) in step S12, the receiving suspending means 21 operates as follows. In step S17, the receiving size is determined according to the contents of the header received in step S11 and the own data storage means 4. Specifically, the reception size is determined by checking whether any combination of one of the moving image data and the sound data and the text data does not exceed the free area.
Here, if the combination of video data and text data exceeds the free space, and if the combination of sound data and text data does not exceed the free space, the sound data and text data are captured without capturing the video data. Determine the receiving size.

When the reception size is determined in step S17, the reception side R notifies the transmission side T that preparation for data reception is completed in step S18. The microcomputer 3T that detects the completion of preparation for receiving data from the receiving side R
Reads the target transmission data written in the data storage unit 11 via the data read / write unit 13 and starts data transmission in step S19.

Upon receiving the transmission data [(b) in FIG. 3] from the transmission side T, the reception side R determines the pointer P in step 20 based on the reception size determined in step S7.
The reception suspending unit 21 inhibits the capture of the moving image data during the period from 1 to the pointer P2, and writes the sound data and the text data into the data storage unit 4 as shown in FIG. 3C, and executes the end sequence of step S6. To complete one operation.

In the case where the multimedia data is composed of only moving images as shown in FIG. 22, if the receiving area larger than the data size of the transmission data cannot be secured, the transmitted moving image data is received from the beginning. When the reception is completed for the receivable data size, the reception of the remaining data is interrupted, and the process proceeds to the end sequence.

(Embodiment 6) FIGS. 14 and 15 show (Embodiment 6). Components having the same functions as those of the fifth embodiment will be described with the same reference numerals.

In (Embodiment 5), only a part of the transmission data is taken into the data storage means 4 according to the free area of the data storage means 4 of the receiving side R. (Embodiment 6)
In accordance with the state of the user's daily access to the data storage means 4 of the receiving side R, the data in the area of low use is erased to secure an empty area of the data storage means 4, and It is configured to take in all of the transmission data into the data storage means 4 of the receiving side R.

The microcomputer 3R on the receiving side R
(Embodiment 5) A data reference frequency counting unit 22 and a data erasing unit 23 are used instead of the reception suspending unit 21 of the fifth embodiment.

The transmission data received from the transmission side T is written in the data storage means 4 of the reception side R, and when the user designates the data to be read out from the input means (not shown), the data reference frequency counting means 22 The frequency of reference is counted for each specified and read data in the data storage unit 4 or for each classification of the specified and read data.

The reference frequency counted by the data reference frequency counting means 22 is specifically managed in the format shown in the following (Table 2).

[0081]

[Table 2]

According to Table 2, out of the data 001, the data 002, and the data 003, the data 002 has the highest reference frequency, and the data 003, and the data 001 are in the following order. In the classification of data by type, the reference frequency of type 1 data is the sum of data 001 and data 003, which is 18, and the reference frequency of type 2 is data 002.
20.

The microcomputers 3R and 3T are shown in FIG.
It is configured as shown in FIG. Similarly to (Embodiment 5), the microcomputer 3T transmits the data size of the target transmission data in step S11, and the microcomputer 3T writes the transmission data in the data storage means 4 of the receiving side R in step S12. Check
If YES is determined in step S12 (writing is possible), steps S13 to S16 are executed to write the target transmission data into the data storage unit 4 of the receiving side R, and one operation is completed. N in step S12
O (cannot write) and reception data analysis means 8 of reception side R
Is determined, step S17-F is executed.
In step S17-F, the data reference frequency counting unit 22
Is checked and specified, and the specified data or data group is deleted from the data storage means 4 of the receiving side R via the data deletion means 23, and YES (writeable) is determined in step S12. Steps S17-F are repeatedly executed until the judgment is made, and the steps S13 to S16 are executed to write the desired transmission data into the data storage means 4 of the receiving side R, thereby completing one operation.

As described above, the contents of the data storage means 4 are automatically erased in accordance with the use frequency to secure the free space, so that the latest transmission data newly sent from the transmission side T is lost. Never do.

Embodiment 7 FIGS. 16 and 17 show (Embodiment 7). Components having the same functions as those of the sixth embodiment will be described with the same reference numerals.

In the sixth embodiment, the contents of its own data storage means 4 are automatically erased according to the frequency of use to secure free space, and the erased contents (data or data area with low frequency of use) Has been lost, but in this (Embodiment 7), when erasing the data storage means 4, the contents to be erased are hard copied via the printer 24.

The microcomputer 3R on the receiving side R
The only difference is that the contents of step S17-F of (Embodiment 6) are hard copied via the printer 24 when erasing in step S17-G as shown in FIG. Is (Embodiment 6)
Is the same as

(Eighth Embodiment) FIGS. 18 and 19 show (Eighth Embodiment). Components having the same functions as those of the seventh embodiment will be described with the same reference numerals.

In the seventh embodiment, when the contents of the data storage means 4 are automatically erased according to the frequency of use to secure free space, the contents to be erased are hard-copyed via the printer 24. In this (Embodiment 8), the data is transferred to the second data storage means 25.

When the data storage means 4 is a hard disk drive, an optical disk drive is used as the second data storage means 25. Microcomputer 3R of receiving side R
Is that the step S17-F of the seventh embodiment is simply changed to the step S17-H as shown in FIG. In the step S17-H, only the point that the contents are transferred to the second data storage means 25 at the time of erasing and then erased from the data storage means 4 of the receiving side R via the data erasing means 23 is the only difference. The other is the same as (Embodiment 7).

Note that when the data is transferred to the second data storage unit 25, the data is simply transferred,
May be transferred to the data storage means 25. In the present embodiment, the data storage means 4 is constituted by a hard disk device, and the second data storage means 25 is constituted by an optical disk device. However, the present invention is not limited to a specific storage device. The means may be another storage device such as a floppy disk device, a semiconductor memory, a streamer, or a DAT. Normally, in the present embodiment, the data storage means 4 is used as a normal storage means and the second data storage device 25 is used as an auxiliary storage means, so that the former is a device which has a higher data reading / writing speed than the latter. Is more desirable.

In the first to eighth embodiments, an example has been described in which communication by telephone line is used as communication means. However, the present invention is not limited to communication means. May be used. For example,
A wireless communication system capable of two-way communication, or distribution from the center side to the terminal side by broadcast waves, and communication from the terminal side to the center side may be via a telephone line. In Embodiments 5 to 8, since unidirectional communication from the center side to the terminal side can also be realized, it is superimposed on terrestrial waves, broadcast waves from satellites, or CATV data. Then, the multimedia data may be transmitted.

(Embodiment 9) FIG. 20 shows (Embodiment 9). Components having the same functions as those of the first embodiment will be described with the same reference numerals.

In each of the above-described embodiments, the equipment on the receiving side R is connected to the television receiver 1 by the attachment device 2 or the attachment device 2 and the printer 24, or the attachment device 2 and the second device.
In this (Embodiment 9), the data storage means 25 is incorporated in the television receiver 1 and integrally formed, and the television receiving means 26, the television display means 27, and the display means 28 are configured as shown in FIG. The television receiver 1 is configured in combination with the configuration of the attachment device 2 shown in FIG. In this case, though not shown, input means for designating and accessing data written in the data storage means 4 is provided.

Further, in this embodiment, the television receiver 1 is integrally incorporated, but the equipment on the receiving side R is not shown in FIG.
0, the television receiving means 26 and the television display means 27
Can be removed from the monitor.

(Embodiment 10) FIG. 21 shows (Embodiment 10). Components having the same functions as those of the ninth embodiment will be described with the same reference numerals.

In the ninth embodiment, the equipment on the receiving side R is integrated into the television receiver 1 by integrating it.
In this (Embodiment 10), the equipment on the receiving side R is incorporated into the facsimile apparatus 29 to be integrally configured. The image reading means 30 and the image output device 31
Represents a unique basic configuration.

[0098]

As described above, according to the data communication method of the present invention, when data is transmitted from the transmission side to the reception side, an area required on the reception side is determined according to the transmission data size and the remaining storage capacity of the reception side. Check whether it can be secured, and if the receiving side determines that the required area can not be secured,
Since the data to be transmitted from the transmitting side to the receiving side is adjusted, and the content already stored in the receiving side storage device is processed according to the state of access to the storage device on the receiving side, the center side (transmission side ), The terminal device installed in each home is accessed via communication means such as a telephone line to distribute information to users. Even if the number decreases, it is possible to realize data communication in which transmission data from the center is not lost.

[Brief description of the drawings]

FIG. 1 is a functional block diagram of a data communication method (Embodiment 1) of the present invention;

FIG. 2 is a configuration diagram of an attached device on a receiving side according to the embodiment;

FIG. 3 is a data format diagram handled in the embodiment.

FIG. 4 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 5 is a functional block diagram of a data communication method (Embodiment 2) of the present invention;

FIG. 6 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 7 is a functional block diagram of a data communication method (Embodiment 3) of the present invention;

FIG. 8 is a data format diagram handled in the embodiment.

FIG. 9 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 10 shows a data communication method according to the present invention (Embodiment 4).
Functional block diagram of

FIG. 11 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 12 shows a data communication method according to a fifth embodiment of the present invention.
Functional block diagram of

FIG. 13 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 14 shows a data communication method according to a sixth embodiment of the present invention.
Functional block diagram of

FIG. 15 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 16 shows a data communication method according to a seventh embodiment of the present invention.
Functional block diagram of

FIG. 17 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 18 shows a data communication method according to the present invention (Embodiment 8).
Functional block diagram of

FIG. 19 is a flowchart illustrating a communication procedure according to the embodiment;

FIG. 20 illustrates a data communication method according to a ninth embodiment of the present invention.
Block diagram on the receiving side of the data communication system

FIG. 21 shows a data communication method according to the present invention (Embodiment 1);
Functional block diagram of the receiving side of the data communication system of 0)

FIG. 22 is a format diagram of an example of multimedia data handled in (Embodiment 1) of the present invention;

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Television receiver 2 Auxiliary device 3R Receiving microcomputer 3T Receiving microcomputer 4 Receiving data storage means 5 Receiving data transmitting / receiving means 8 Receiving data analyzing means 9 Receiving read / write means 10 Receiving side Data transmission data generation means 11 Transmission side data storage means 12 Transmission side data transmission / reception means 13 Transmission side data read / write means 14 Transmission side transmission data size counting means 15 Transmission side transmission data generation means 16 Transmission side reception data Analysis means 17 Transmission-side transmission interruption means 18 Transmission-side transmission interruption means 19 Transmission-side transmission data changing means 20 Transmission-side transmission data compression means 21 Reception-side reception interruption means 22 Receiving-side data reference frequency counting means 23 Reception Side data erasing means 24 printer 25 second data Data storage means 26 television receiving means 29 facsimile apparatus

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Atsushi Imura 1006 Kazuma Kadoma, Osaka Pref. Matsushita Electric Industrial Co., Ltd.

Claims (13)

[Claims] When transmitting data from a transmission side to a reception side, it is checked whether a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. If it is determined that the area can be secured,
The transmitting data is transmitted from the transmitting device to the receiving device, and the receiving device stores the data received from the transmitting device.If the receiving device determines that the necessary area cannot be secured, the transmitting device transmits the data. A data communication method in which only a part of target transmission data is transmitted to a receiving side from a receiving side, and the receiving side receiving the data stores the data received from the transmitting side. 2. When data is transmitted from a transmission side to a reception side, it is checked whether a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. If it is determined that the area can be secured,
The transmitting data is transmitted from the transmitting device to the receiving device, and the receiving device stores the data received from the transmitting device.If the receiving device determines that the necessary area cannot be secured, the transmitting device transmits the data. A data communication method in which transmission of target transmission data is stopped from a receiver to a receiver. 3. When data is transmitted from a transmission side to a reception side, it is checked whether a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. If it is determined that the area can be secured,
The transmitting data is transmitted from the transmitting device to the receiving device, and the receiving device stores the data received from the transmitting device.If the receiving device determines that the necessary area cannot be secured, the transmitting device transmits the data. A data communication method in which part or all of target transmission data is changed to alternative data having a small data size and transmitted to a receiving side, and the receiving side that receives the data stores the data received from the transmitting side. 4. When transmitting data from a transmission side to a reception side, it is checked whether a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. If it is determined that the area can be secured,
The transmitting data is transmitted from the transmitting device to the receiving device, and the receiving device stores the data received from the transmitting device.If the receiving device determines that the necessary area cannot be secured, the transmitting device transmits the data. A data communication method in which at least a part of target transmission data is compressed and transmitted to a receiving side, and the receiving side receiving the data stores the data received from the transmitting side in the compressed state. 5. When transmitting data in a compressed state from a transmission side to a reception side, it is checked whether a necessary area can be secured on the reception side according to the transmission data size and the remaining storage capacity of the reception side. If it is determined that the required area can be secured,
The transmitting data is transmitted from the transmitting device to the receiving device, and the receiving device stores the data received from the transmitting device.If the receiving device determines that the necessary area cannot be secured, the transmitting device transmits the data. A data communication method in which the target compressed transmission data is recompressed and transmitted to the receiving side, and the receiving side receiving the data stores the data received from the transmitting side in the recompressed state. 6. When data is transmitted from a transmission side to a reception side, a data size is transmitted from the transmission side to the reception side prior to transmission of target transmission data, and the reception side sets the data size according to the remaining storage capacity of the reception side. Check whether the required area can be secured, and if the receiving side determines that the required area can be secured,
Stores all of the target transmission data transmitted from the transmitting side, and stores only a part of the target transmission data transmitted from the transmitting side if the receiving side determines that the necessary area cannot be secured. Data communication method. 7. When transmitting data from a transmission side to a reception side, the transmission side transmits target transmission data to the reception side, and the reception side receiving the data transmits the data from the header of the received transmission data. The data size is read and the receiving side checks whether the area required for storage can be secured. If the receiving side determines that the required area can be secured,
Stores all of the target transmission data transmitted from the transmitting side, and stores only a part of the target transmission data transmitted from the transmitting side if the receiving side determines that the necessary area cannot be secured. Data communication method. 8. When data is transmitted from a transmission side to a storage device on the reception side, the reception side counts the frequency of user access to the data written in the storage device, and determines the transmission data size and the remaining storage capacity on the reception side. Check if the required area can be secured on the receiving side in accordance with, and if the receiving side determines that the required area can be secured,
The transmission data transmitted from the transmission side is stored in the storage device on the reception side, and if the reception side determines that the necessary area cannot be secured, data with low access frequency is deleted or compressed from the storage device. A data communication method for securing an area and storing transmission data received from a transmission side in the storage device. 9. When transmitting data from a transmission side to a first storage device on the reception side, the reception side counts the frequency of user access to data written in the first storage device, and determines a transmission data size and The receiving side checks whether the necessary area can be secured according to the remaining storage capacity of the first storage device. If the receiving side determines that the necessary area can be secured,
The transmission data transmitted from the transmission side is stored in the first storage device on the reception side, and if it is determined that the necessary area cannot be secured on the reception side, data with low access frequency is stored in the first storage device. A data communication method in which an area is secured by moving to a second storage device different from the first storage device, and transmission data received from the transmission side is stored in the first storage device. 10. When transmitting data from a transmission side to a storage device on the reception side, the reception side counts the frequency of user access to the data written in the storage device, and determines the transmission data size and the storage device. Check if the required area can be secured on the receiving side according to the remaining storage capacity of the server, and if the receiving side determines that the required area can be secured,
The transmission data transmitted from the transmission side is stored in the storage device on the reception side. If the reception side determines that the necessary area cannot be secured, the data with low access frequency is printed out and the storage device is A data communication method of securing an area by erasing data from a storage device and storing transmission data received from a transmission side in the storage device. 11. A data communication system for realizing the data communication method according to claim 1, wherein the equipment on the receiving side is a facsimile machine. 12. A data communication system for realizing the data communication method according to claim 1, wherein the equipment on the receiving side is a television receiver or a monitor device. 13. A data communication system for realizing the data communication method according to any one of claims 1 to 10, wherein equipment on the receiving side is used by connecting to a television receiver, a monitor device, or a facsimile device. A data communication system that is an external attachment.